Learners will construct a mock-up of planetary surface rover. They begin by exploring the importance of engineering in our society and work as a team to build a prototype of the team’s rover using student science notebooks and team sketches as a...(View More) guide. The lesson uses the 5E instructional model and includes: TEKS Details (Texas Standards alignment), Essential Question, Science Notebook, Vocabulary Definitions for Students, Vocabulary Definitions for Teachers, three Vocabulary Cards, and a Mini-Lesson. This is lesson 13 of the Mars Rover Celebration Unit, a six week long curriculum.(View Less)

Learners will take and then compare the images taken by a camera - to learn about focal length (and its effects on field of view), resolution, and ultimately how cameras take close-up pictures of far away objects. Finally, they will apply this...(View More) knowledge to the images of comet Tempel 1 taken by two different spacecraft with three different cameras, in this case Deep Impact and those expected/obtained from Stardust-NExT. This lesson could easily be adapted for use with other NASA missions.(View Less)

Learners will become familiar with and use the engineering design process to sketch a reasonable drawing of the rover that will be built. The lesson uses the 5E instructional model and includes: TEKS Details (Texas Standards alignment), Essential...(View More) Question, Science Notebook, Vocabulary Definitions for Students, Vocabulary Definitions for Teachers, three Vocabulary Cards, and a concept map Mini-Lesson. teacher notes, vocabulary, student journal and reading. This is lesson 11 of the Mars Rover Celebration Unit, a six week long curriculum.(View Less)

This is a lesson about the Discovery Program's exploration of the solar system. Learners will identify and communicate to others the varied space science explorations carried out by the Discovery Program and dig into one mission in depth. They can...(View More) then respond to a NASA Discovery Program Announcement of Opportunity (AO) to submit a mock proposal. Includes the award-winning video, "Unlocking Mysteries of Our Solar System."(View Less)

In this data activity, students explore the relationship between surface radiation and mean surface temperature in several geographic regions. By observing how these parameters change with latitude, students will understand the relationship between...(View More) solar radiation and seasonal temperature variation. This activity is part of the MY NASA DATA Scientist Tracking Network unit, designed to provide practice in accessing and using authentic satellite data.(View Less)

This is a activity about applying the scientific method to a design challenge. Learners will design and build a platform that will be placed on a heat source. The platform is expected to serve as an insulator for a cube of gelatin. The goal is to...(View More) keep the inside temperature of the gelatin cube as cool as possible. Materials cost will vary, depending on materials chosen by group (within budget set by the teacher). Ties are made to the Mercury MESSENGER mission. Note: the student guide starts on p. 17 of the PDF.(View Less)

This activity is about landing on the Moon. Learners will design a spacecraft, choose a suitable lunar landing site, and present their ideas before the entire class using visual aides such as maps, diagrams, and 3-dimensional models. This activity...(View More) is in Unit 2 of the Exploring the Moon teachers guide, which is designed for use especially, but not exclusively, with the Lunar Sample Disk program.(View Less)

In this activity, learners will construct a model of a lunar roving vehicle. This activity is in Unit 2 of the Exploring the Moon teachers guide, which is designed for use especially, but not exclusively, with the Lunar Sample Disk program.